Heavy Equipment Track and Bucket Welding: On-Site Service
Field welding for heavy equipment sits at the intersection of speed, reliability, and judgment. When a track shoe shatters on a blasted haul road or a bucket lip peels off mid-shift, the wrong call drags production for days. The right call gets you back to work before fuel trucks finish the next round. This is where on site welding services earn their keep: a mobile welder who can triage, prep, and execute structural repairs in the dirt, wind, and noise without compromising safety or metallurgy.
I’ve burned rod in quarries, rail yards, and loading dock aprons, with a portable welder humming on the truck and a parts trailer stocked like a rolling tool crib. Track and bucket work is unforgiving, yet entirely doable in the field if you respect the material, control heat like a hawk, and choose your welding process for the situation rather than habit. Let’s walk through how pros approach it, what owners should expect, and where a little preparation saves a lot of money.
What fails and why it matters
Heavy equipment doesn’t fail randomly. Tracks and buckets suffer predictable abuse that leaves fingerprints. Track links and shoes see high-impact loading and constant abrasion, which work-hardens the surface while creating micro-cracks at stress risers like bolt holes and welded spuds. Idler and sprocket interfaces chew into the bushings, and once lubrication goes or alignment drifts, pins start to walk. Buckets show different patterns: cracked corners, torn ears, worn cutting edges, mushroomed adapters, and hairline fractures creeping from weld toes around the hinge bosses. If you run abrasive material like basalt or slag, you’ll watch wear rates accelerate two to three times compared to loam.
A cracked bucket ear is not just an eyesore. That ear carries bending and torsion every cycle, and once a crack starts, it grows like ivy. A “quick stitch” with the wrong rod can hold for a week, then tear out a much larger section. On tracks, a broken shoe or cracked link can cascade into pad damage, thrown tracks, and downtime that dwarfs the cost of a proper structural repair.
The case for on-site welding services
Dragging a 60,000-pound excavator to a shop because the bucket lip split isn’t efficient. On-site brings the fix to the machine, which keeps project momentum and limits double-handling. A good truck welding setup carries a welder/generator that can handle both heavy stick and spray-transfer MIG, a wire feeder for flux-cored wire, leads long enough to reach safely, and a shield against wind that lets you run a wide root without porosity. It also carries preheat sources, from propane rosebuds to induction blankets, and consumables that match the equipment’s steel grade.
Not every job belongs in the field. When the repair demands jigs, controlled post-weld heat treatment, or machining tolerances in the thousandths, hauling to a controlled environment is cheaper than rework. The judgment is part of the service. A certified AWS welder with heavy equipment experience should explain where the line sits and why.
Knowing your steels: base metal dictates the plan
Excavator buckets and track components are not mild steel plate. Most buckets combine a structural shell of high-strength low-alloy steel with wear components of quenched-and-tempered steel. You’ll see grades analogous to A514 and proprietary alloys in the 400 to 500 Brinell range for edges and wear strips. Track links and shoes are often cast alloys, sometimes manganese, sometimes medium-carbon steel heat-treated for toughness.
This matters because welding alters microstructure. If you weld a 500 Brinell cutting edge cold with a fast-freezing process, you risk a glassy heat-affected zone that cracks the first time it bites rock. Preheat is not optional. For many bucket edges and ears, 300 to 400 F preheat keeps hydrogen at bay and slows the cooling curve. For cast components, preheat ranges can push higher, and peening and controlled cool-down wrap the job. Stainless and aluminum show up around loading dock hardware, railings, and certain industrial attachments, where TIG and MIG aluminum welding demand different discipline, but for bucket and track, stick and flux-cored welding dominate.
Process choice: stick, flux core, MIG, and TIG in the dirt
You bring more than one tool for a reason.
- Shielded metal arc welding (stick) is king for dirty, windy, hard-to-reach repairs. Low-hydrogen electrodes like E7018 are staples for structural repair, with E11018 for high-strength steels when procedure and fit-up warrant it. With proper storage and baking, they produce sound welds on thick sections and tolerate less-than-perfect shielding conditions.
- Flux-cored arc welding (FCAW) offers speed on longer runs like rebuilding a bucket lip or laying stringers on wear packages. Gas-shielded wires like E71T-1 shine when you can shield from wind. Self-shielded wires add flexibility outdoors but must be chosen carefully for impact toughness.
- Gas metal arc welding (MIG) is fast and smooth for structural work when the environment cooperates. With a spool of dual-shield in the feeder and a windbreak, you can put down consistent, high-deposition welds on edges and adapters. Short-circuit MIG on thick, high-strength steel is risky without proper heat input, so welder settings and passes matter.
- Gas tungsten arc welding (TIG) is rare on buckets and tracks but essential for stainless steel welding on industrial handrails, loading dock guards, and food-grade equipment you might service on the same site. TIG offers control, harmony with thin sections, and polished results for stainless and aluminum where aesthetics and corrosion resistance count.
A certified AWS structural welder knows when to switch. On a quarry night shift I replaced a cracked quick-coupler ear with stick to root and hot-pass in gusty conditions, then switched to flux core under a tarp for fill and cap. The combination saved an hour and held through the season.
Diagnosing the damage before the arc strikes
Speed starts with accuracy. A five-minute inspection that finds the end of a crack prevents a return visit. Look beyond the visible tear. Dye penetrant catches surface cracks around ear weld toes. Magnetic particle testing is ideal for ferrous parts if you have the kit on the truck. Straight edges and feeler gauges reveal lip distortion that makes edges sit proud, which eats adapters. For tracks, measure pitch wear, check bushing rotation, and note misalignment that is chewing one side. Take photos for the owner, mark your cut lines, and number the pieces if you plan to remove and reattach.
If you suspect high carbon or alloy content, perform a quick spark test and hardness check. Hardness north of 400 HB calls for greater preheat and controlled cool-down, and sometimes a buttering layer with a softer weld metal to ease dilution. When doubt remains, err toward conservative heat management and test weld a coupon from a scrap of similar material if available.
Prep makes or breaks the repair
Field conditions tempt shortcuts, yet every successful structural repair starts the same: clean, bevel, fit, and preheat. Grind away paint, oil, mud, and the outer skin of rust until you hit bright metal, then keep cleaning a handspan beyond the joint. For cracks, drill stop-holes at the ends to prevent further propagation. Gouge out the crack with air carbon arc or a careful grinder until you see clean, crack-free metal. A U-shaped groove avoids sharp transitions.
Fit-up is geometry in steel. On an ear or hinge boss, tolerance stack-ups matter. Dry-fit pins, measure gaps, and use strongbacks or tacks to hold alignment. If a bucket lip twisted from abuse, you may need a rosebud and a heavy bar to coax it back before welding in a new cutting edge. Poor fit invites lack of fusion and stress concentrations that will re-crack.
Preheat evenly. A surface temp stick works, but an infrared thermometer plus temperature crayons gives confidence. On thick sections, let heat soak through, not just glaze the surface. Keep preheat during the weld and between passes within range to prevent thermal shock.
The weld itself: passes, sequence, and heat input
Welding is not just melting and filling. It is controlled heat input that produces the desired microstructure and stress state. On heavy sections, stringer beads usually beat wide weaves, especially on high-strength steels. They limit heat input per pass and reduce the risk of soft zones. Between passes, clean thoroughly, watch for any signs of cracking, and maintain interpass temperatures.
Sequence matters. If you reattach a bucket ear, alternate sides to balance pull. On long edges, skip around in a backstep sequence to distribute heat. For buildups, layer evenly and grind high spots rather than overheat with a single heavy pass. For cast repairs, consider a buttering pass with a ductile filler, then tie into the base metal. If the part is manganese steel, you may avoid welding altogether or use a specialized austenitic manganese electrode with minimal heat to preserve toughness.
Post-weld, slow the cool-down on high-hardness components. Wrap in insulation or bury in dry sand. A rushed cool-down often becomes a next-day crack.
Track welding: links, shoes, and practical limits
Track repair splits into two camps: replace and weld. Shoes with snapped grouser bars or broken bolt bosses can sometimes be welded if the risk aligns with the application. On high-speed, high-load crawlers, replacement of critical shoes beats a welded patch, especially near bolt patterns. For cracks in track frames or roller guards, structural repair by a mobile welder often makes sense: plate, bevel, fit, preheat, root, fill, and fishplate if the design allows.
Link repair requires caution. Many links are heat-treated. Localized welding can soften, harden, or create stress risers that lead to rapid failure. When a link cracks at the pin boss, most pros recommend replacement of the link assembly. If you do weld a link, follow a strict procedure with controlled preheat, properly selected low-hydrogen filler, and a geometry that avoids pulling the pitch out of tolerance. Then expect increased inspection frequency.
One practical note: a field emergency welder can reattach a shoe or stitch a noncritical crack in an hour, which gets a machine off a slope and back to level ground. That triage is different from a production repair. Communicate the distinction with the operator and plan a follow-up in the yard.
Buckets, edges, and wear packages
Buckets reward planning. If the cutting edge is worn to a knife and adapters are mushrooming, you’ll spend more time salvaging than replacing. Often the fastest route is to cut the old edge clean, true the lip, then weld in a new edge with preheat and balanced passes. When edges bolt on, confirm the hole pattern and hardness, and chase threads as needed so the bolts seat. For adapters, position with a jig to hold angle and spacing, then weld to the manufacturer’s procedure. A misaligned adapter chews teeth and drives up fuel.
Wear packages, whether chromium carbide plates or hardfacing, extend life if applied wisely. Don’t hardface every square inch. Build up high-wear zones on the side cutters, heel, and lip. On thin buckets, too much hardfacing creates stiffness mismatches that crack the shell. Ask what material the bucket sees. Sand wants different patterns than rock. A crosshatch that traps fines becomes sandpaper in a sand pit, while rock benefits from directional beads that shed impact.
Aluminum and stainless on the same job site
Heavy equipment work often collides with ancillary tasks, from fence welding at the yard to stainless upgrades on industrial loading dock equipment. A seasoned mobile welder carries the ability to switch modes. Aluminum welding demands clean prep, mechanical oxide removal, and AC TIG or pulse MIG with proper wire like 5356 for structural work. Stainless needs careful heat input to control warping and preserve corrosion resistance, with TIG for railings and food-service gear, and spray-transfer MIG for heavier sections like dock bumpers or pipe repair in wash-down areas. The reality is that a day may start with a bucket ear and end with a gate hinge, and the quality bar must stay level.
Weather, wind, and real-world constraints
Wind steals shielding gas, cold drains batteries, and heat cooks leads. You adapt. A welding screen made from fire-resistant tarp and a couple of conduit frames keeps gas coverage stable. Preheat doubles as finger warmer and metallurgical insurance. If rain threatens, you protect the work, not just the welder. Moisture is hydrogen. Running E7018 out of a rod oven, not a damp cardboard box, is a habit not a luxury. Generator maintenance matters when your entire operation hangs on a consistent arc. A sputtering machine wastes time and risks inclusions.
Access shapes decisions. On a barge or tight quarry bench, you route cables like lifelines and plan where you’ll stand on every pass. A truck welding rig with hose reels and quick disconnects turns setup into minutes rather than half an hour of wrestling gear. Good on site welding services look choreographed, not improvised.
Economics: downtime, durability, and documentation
Owners care about cost to repair and time off-line. A skilled mobile welder prices by the hour plus consumables, sometimes with a minimum call-out. The math pencils out when you compare to hauling costs, lost production, and the hidden labor as your crew waits. That said, chasing a cheap patch can be the most expensive decision on the job. Durable repairs require proper prep and heat control. You pay for that expertise, but you pay once.
Documentation protects both sides. An AWS certified welder can log the procedure used, preheat temperatures, filler metal, and visual test results. For structural repairs on lifting points or boom components, insist on clear sign-off and, if needed, third-party NDT. For fencing, gates, and railings on the same industrial site, a quick written note of work performed proves valuable when safety audits roll through.
Safety on active sites
Welding beside live equipment demands discipline. Lockout and tagout the machine if you are near moving parts, hydraulics, or electrical systems. Remove or isolate batteries when welding near sensitive controls. Shield lines and cylinders from heat and spatter. A small pinhole in a hydraulic hose under a weld bead turns into a surprise failure at the worst time. Gas bottles ride chained and valves closed when moving. Fire watch remains the unsung hero, especially around dry grass or wood cribbing. The fastest repair is the one you don’t have to redo because a spark found a hidden fuel-soaked rag.
When emergency welder response makes sense
Some calls are straightforward. A cracked fence post at a loading dock, a gate hinge ripped by a trailer, or a handrail that got clipped by a forklift, these are quick turnarounds. Others are time-critical, like a pipe repair at a wash-down station or a structural crack on a conveyor support that halts the line. An emergency welder brings triage decision-making, not just a stinger. Stabilize first, return to full strength with a scheduled window if necessary. Communicate clearly about temporary versus permanent repairs and mark the temporary with paint so no one mistakes it for finished work.
Small details that separate pros from pretenders
Weld orientation on adapters, toe blend on fillets, and edge prep angles show up months later as either normal wear or early failures. A tack weld ground out rather than buried avoids inclusions. Temperature sticks in multiple spots verify even preheat across large parts. On stainless, post-weld cleaning and passivation prevent tea staining that triggers maintenance calls. On aluminum, brushing with a dedicated stainless brush before TIG matters more than most think. Even fence welding and gates benefit from tiny choices: drain holes at the bottom of railings, sealed caps to prevent water intrusion, and primer that bonds to galvanized surfaces.
I still remember a loader bucket that returned every six weeks with cracks at the same corner. The previous repairer kept laying wide weave caps that looked handsome but baked the edge. We changed to stringers, added a small triangular doubler that chased the stress path, and the crack never came back. The owner noticed two things: the repair lasted and the machine ran cooler because it could dig cleanly without flexing.
Coordination with other trades and site operations
On industrial sites, welding intersects with electricians, fabrication teams, and operations. Plan sequence so sparks don’t rain on open cable trays. Coordinate with maintenance windows on conveyors and hoppers. If you need to weld near a loading dock scale, isolate the electronics and ground properly to avoid stray current damage. A mobile welder who asks about power, airflow, and nearby materials earns trust quickly. So does the one who shows up with their own power and light, runs neat leads, and cleans the area on exit.
What to ask when you hire a field welder
A short, focused set of questions protects your schedule and equipment.
- Are you an AWS certified welder for structural work, and do you carry procedures for common heavy equipment repairs?
- What is your plan for preheat, interpass control, and post-weld cooling on high-hardness edges and cast components?
- Which processes do you run in the field, and how do you handle wind and weather shielding?
- Can you provide NDT or coordinate dye penetrant or mag particle tests when needed?
- What is your typical response time for emergency calls, and what does a call-out include?
The answer you want is practical and specific, not generic. Listen for references to filler designations, temperature ranges, and sequence choices rather than brand bragging.
Beyond the bucket: the wider scope of mobile welding
A day on a field rig rarely sticks to script. After a morning on a dozer track guard, the afternoon might shift to stainless upgrades on a wash station, aluminum handrails for a mezzanine, or a fence repair at the perimeter where a trailer clipped a post. A well-equipped mobile welder carries the outfit for TIG on stainless, MIG aluminum, and stick on structural steel, with jigs for gates and railings, and enough stock to fabricate a bracket or hinge on the spot. The same rigor that holds a bucket ear holds a loading dock bollard that keeps a forklift from kissing a column. It is all structural integrity, just wearing different paint.
Maintenance habits that reduce welding calls
Planned maintenance beats emergency repair. Keep bucket pins greased. Replace cutting edges before they knife thin and undermine the lip. Watch track tension and alignment, and don’t ignore a walking pin. Keep an eye on weld toes where paint flakes, because that’s where cracks first surface. On railings and gates, keep drains clear and repaint chips to slow corrosion. These habits buy time and turn a 2 a.m. emergency into a scheduled afternoon slot.
The bottom line
On-site track and bucket welding sits in a practical middle ground between fabrication and firefighting. It demands a blend of metallurgy, process control, and improvisation that only comes with field hours. The goal is simple: safe, reliable, and efficient repairs that respect the base material and the working environment. When you hire a mobile welder with the right kit and experience, you cut downtime without gambling on quality. When you carry that standard across the rest of your equipment, from industrial railings to loading dock guards and fence lines, the whole site runs smoother.
If a machine is down and production is bleeding, the path forward is clear. Assess the base metal. Prep like it matters, because it does. Choose the right process, manage heat, and weld with purpose. Then document, inspect, and get back to work. That is the craft, whether you are burning 7018 into a bucket ear, stringing dual-shield along a new cutting edge, TIG welding a stainless guardrail, or stitching a fence post so the gate swings true.
On Call Mobile Welding
917 J Pl Suite 2, Plano, TX 75074
(469) 750-3803